CN112660694B

CN112660694B - Tilting roller conveyor

Info

Publication number: CN112660694B
Application number: CN202011494462.5A
Authority: CN
Inventors: 彭俊涛; 贾韬; 郭西讲
Original assignee: Flexmove Intelligent Transmission System Suzhou Co ltd
Current assignee: Flexmove Intelligent Transmission System Suzhou Co ltd
Priority date: 2020-12-17
Filing date: 2020-12-17
Publication date: 2023-08-18
Anticipated expiration: 2040-12-17
Also published as: CN112660694A

Abstract

The invention discloses an inclined roller conveyor which is provided with a straight-line roller and an inclined roller, wherein a motor drives a chain wheel and a chain to further drive a transmission rod and the roller to realize the functions of straight line transmission and inclined transmission, a lateral transmission line is arranged on the side face to correct the transmission direction of workpieces such as a wood plate and the like to a line, a screw rod pinch roller assembly is arranged at one end of the tail part, when an inductor senses that the workpieces such as the wood plate and the like are transmitted in, the motor drives the screw rod to control the pinch roller to lift and lower than a middle section bar of the straight-line transmission roller and the inclined roller to control the pinch roller to rotate, a cylinder jacking assembly is arranged below a middle section bar of the straight-line transmission roller and the inclined roller, the pinch roller on the section bar is controlled by a cylinder to jack up so as to correct the direction of the wood plate, the problem of deviation of the direction after the transmission is corrected, and the wood plate transmission can be accelerated during the transmission of the upper pinch roller, so that the phenomenon of accumulated materials is prevented. The invention not only quickens the transmission speed of the workpiece wood board, but also stabilizes the transmission direction, and has simple structure, stability and reliability.

Description

Tilting roller conveyor

Technical Field

The invention relates to the technical field of automatic conveying line equipment, in particular to an inclined roller conveyor.

Background

The roller conveying mechanism is important material conveying equipment for assembly and production and processing procedures in the production and manufacturing industry, and is used for conveying rollers through motor driving. The traditional linear roller conveyor is low in transmission speed and easy to deviate in direction. For this reason, it is necessary to design a directional inclined roller conveyor mechanism to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problems, the invention provides an inclined roller conveyor, which comprises a frame, and a straight-line section roller conveying assembly, a jacking assembly, a screw rod pinch roller assembly, an inclined section roller conveying assembly and a side conveying assembly which are arranged on the frame, wherein the jacking assembly is positioned between the straight-line section roller conveying assembly and the inclined section roller conveying assembly;

the straight-line section roller conveying assembly comprises a motor I arranged on the frame through a motor fixing seat I and side plates symmetrically arranged on the frame along the conveying direction; the inner sides of the side plates at two sides are respectively provided with a first power shaft through a first bearing seat, the output end of the first motor is provided with a first driving sprocket, the first power shaft is provided with a first driven sprocket corresponding to the first driving sprocket, and the first driving sprocket and the first driven sprocket are driven through meshed chains; a roller I which is perpendicular to the side plates is arranged between the side plates at two sides in parallel through roller supports which are respectively arranged at the inner sides of the side plates at two sides, and the power shaft I is connected with the roller I through a synchronous belt I; the first bearing seat is arranged on the inner side of the side plate through the first fixing plate;

the jacking assembly comprises a lower section bar used for connecting the bottoms of the side plates at two sides, a fixed plate arranged on the lower section bar, an air cylinder arranged on the fixed plate, an upper section bar jacked by the air cylinder and arranged in parallel with the lower section bar up and down, and a lower pressing wheel arranged on the upper section bar in parallel;

the screw rod pinch roller assembly comprises a screw rod rack arranged on the side part of the rack, a motor II arranged on the top of the screw rod rack, a screw rod vertically driven by the motor II, and a connecting plate vertically lifted by the screw rod; a motor fixing plate is vertically arranged on the connecting plate, a motor III is arranged on the side part of the motor fixing plate, a motor shaft of the motor III is connected with a synchronous wheel I, two synchronous wheels II are arranged at the front end of one side of the motor fixing plate through a bearing seat II, the synchronous wheel I, the adjacent synchronous wheels II and the two synchronous wheels II are all driven by a synchronous belt II, and the two synchronous wheels II drive two upper pinch rollers arranged on the other side of the motor fixing plate to rotate through a rotating shaft;

the inclined section roller conveying assembly comprises a motor IV which is arranged on the frame through a motor fixing seat II, power shafts II which are respectively and symmetrically arranged on the inner sides of the side plates on two sides through bearing seats III, the output end of the motor IV is connected with a driving chain wheel II, a driven chain wheel II corresponding to the driving chain wheel II is arranged on the power shafts II, and the driving chain wheel II and the driven chain wheel II are driven through meshed chains II; the two sides of the side plate are provided with a roller II which is obliquely arranged with the side plate through a roller support II which is respectively arranged at the inner sides of the two sides of the side plate, and the power shaft II is connected with the roller II through a synchronous belt III; the bearing seat III is arranged on the inner side of the side plate through a fixing plate II;

the side transmission assembly comprises a conveying section bar which is arranged on one side of the side plate through a fixing plate III, two ends of the conveying section bar are respectively and horizontally provided with a driving riding wheel and a driven riding wheel, the driving riding wheel and the driven riding wheel are connected and driven through a conveying belt, and the driving riding wheel is driven to rotate by a motor five arranged on the conveying section bar through a fixing plate IV.

The two ends of the first power shaft are also provided with a first fixed shaft sleeve which is arranged on the inner side of the side plate; the side of the motor I is also provided with a motor cover I for dust prevention.

The two ends of the power shaft II are also provided with a fixed shaft sleeve II which is arranged on the inner side of the side plate; and a second motor cover for dust prevention is also arranged on the side surface of the fourth motor.

And one end of the driven riding wheel is also provided with a tensioning block through a fixing plate so as to adjust the tightness of the conveying belt.

Wherein, an electric cabinet and an electromagnetic valve are arranged below the side plate at one side; the bottom of the frame is provided with a foot seat.

Through the technical scheme, the machine body of the invention is provided with two sections of rollers: the linear section roller drives a transmission rod and roller to linearly transmit through a motor driving chain wheel and a chain, the inclined section roller also realizes an inclined transmission function through the motor driving chain wheel, the chain and the roller, a lateral transmission line is arranged on the side face to correct the transmission direction of workpieces such as wood boards and the like to a line, a screw rod pinch roller component is arranged at one end of the tail, when an inductor senses that the workpieces such as wood boards and the like are transmitted in, the motor drives the screw rod to control the pinch roller to lift, the other motor controls the pinch roller to rotate, a cylinder jacking component is arranged below a section bar in the middle of the linear transmission roller and the inclined roller, the pinch roller jacking on the section bar can correct the direction of the wood boards by the cylinder, the problem of directional deviation after the acceleration transmission is corrected, the wood board transmission can be accelerated when the upper pinch roller is transmitted, and the phenomenon of accumulating materials at the place is prevented. The invention not only quickens the transmission speed of the workpiece wood board, but also stabilizes the transmission direction, and has simple structure, stability and reliability.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the description of the embodiments will be briefly described below.

FIG. 1 is a perspective view of a conveyor according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of another view of a conveyor according to an embodiment of the present invention;

FIG. 3 is a schematic front view of a conveyor according to an embodiment of the present disclosure;

fig. 4 is a schematic side view of a conveyor according to an embodiment of the present disclosure.

The figures represent the numbers: 10. a frame; 21. a first motor; 22. a first driving sprocket; 23. a first power shaft; 24. a driven sprocket I; 25. a first chain; 26. a synchronous belt I; 27. a side plate; 28. a roller I; 29. a roller support I; 210. a first bearing seat; 211. a first fixing plate; 212. a first fixed shaft sleeve; 213. a motor fixing seat I; 214. a first motor cover; 31. a fixing plate; 32. a lower section bar; 33. a cylinder; 34. an upper section bar; 35. a lower pinch roller; 41. a screw rod rack; 42. a second motor; 43. a screw rod; 44. a connecting plate; 45. a third motor; 46. a motor shaft; 47. a first synchronous wheel; 48. a motor fixing plate; 49. a second synchronous wheel; 410. a synchronous belt II; 411. a pressing wheel is arranged; 412. a second bearing seat; 51. a fourth motor; 52. a second driving sprocket; 53. a power shaft II; 54. a driven sprocket II; 55. a second chain; 56. a synchronous belt III; 58. a second roller; 59. a roller support II; 510. bearing seat III; 511. a second fixing plate; 512. a second fixed shaft sleeve; 513. a motor fixing seat II; 514. a second motor cover; 61. a fixing plate III; 62. conveying the profile; 63. an active riding wheel; 64. driven riding wheels; 65. a conveyor belt; 66. a fixing plate IV; 67. a tensioning block; 67. a fifth motor; 70. an electric control box; 80. an electromagnetic valve; 90. a foot stand.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-4, the invention provides an inclined roller conveyor, which comprises a frame 10, and a straight-line section roller conveying assembly, a jacking assembly, a screw rod pinch roller assembly, an inclined section roller conveying assembly and a side conveying assembly which are arranged on the frame 10, wherein the jacking assembly is positioned between the straight-line section roller conveying assembly and the inclined section roller conveying assembly; an electric cabinet 70 and a solenoid valve 80 are arranged below the side plate 27; the foot stand 90 is mounted at the bottom of the frame 10.

The straight-line section roller conveying assembly comprises a first motor 21 arranged on the frame 10 through a first motor fixing seat 213 and side plates 27 symmetrically arranged on the frame 10 along the conveying direction; the inner sides of the side plates 27 on the two sides are respectively provided with a first power shaft 23 through a first bearing seat 210, the output end of the first motor 21 is provided with a first driving sprocket 22, the first power shaft 23 is provided with a first driven sprocket 24 corresponding to the first driving sprocket 22, and the first driving sprocket 22 and the first driven sprocket 24 are driven through a first meshed chain 25; a roller I28 which is perpendicular to the side plates 27 is arranged between the side plates 27 through roller supports I29 which are respectively arranged on the inner sides of the side plates 27, and the power shaft I23 is connected with the roller I28 through a synchronous belt I26; the first bearing seat 210 is arranged on the inner side of the side plate 27 through the first fixing plate 211; the two ends of the first power shaft 23 are also provided with a first fixed shaft sleeve 212 which is arranged on the inner side of the side plate 27; the side of the first motor 21 is also provided with a first motor cover 214 for dust protection.

The jacking assembly comprises a lower section bar 32 for connecting the bottoms of the side plates 27 on both sides, a fixed plate 31 arranged on the lower section bar 32, an air cylinder 33 arranged on the fixed plate 31, an upper section bar 34 which is jacked by the air cylinder 33 and is arranged in parallel with the lower section bar 32 up and down, and a lower pressing wheel 35 arranged on the upper section bar 34 in parallel;

the screw rod pinch roller assembly comprises a screw rod rack 41 arranged on the side part of the rack 10, a second motor 42 arranged on the top of the screw rod rack 41, a screw rod 43 vertically driven by the second motor 42, and a connecting plate 44 vertically lifted by the screw rod 43; a motor fixing plate 48 is vertically arranged on the connecting plate 44, a motor III 45 is arranged on the side part of the motor fixing plate 48, a motor shaft 46 of the motor III 45 is connected with a first synchronizing wheel 47, two second synchronizing wheels 49 are arranged at the front end of one side of the motor fixing plate 48 through a second bearing seat 412, the first synchronizing wheel 47, the second synchronizing wheels 49 which are close to the first synchronizing wheel and the second synchronizing wheels 49 are driven by a second synchronizing belt 410, and the two second synchronizing wheels 49 drive two upper pressing wheels 411 arranged on the other side of the motor fixing plate 48 to rotate through a rotating shaft;

the inclined section roller conveying assembly comprises a motor IV 51 which is arranged on the frame 10 through a motor fixing seat II 513, a power shaft II 53 which is symmetrically arranged on the inner sides of side plates 27 on two sides through a bearing seat III 510 respectively, a driving chain wheel II 52 is connected to the output end of the motor IV 51, a driven chain wheel II 54 which corresponds to the driving chain wheel II 52 is arranged on the power shaft II 53, and the driving chain wheel II 52 and the driven chain wheel II 54 are driven through a meshed chain II 55; a second roller 58 obliquely arranged with the side plates 27 is arranged between the side plates 27 through a second roller support 59 respectively arranged on the inner sides of the side plates 27, and a power shaft 53 is connected with the second roller 58 through a third synchronous belt 56; the bearing seat III 510 is arranged on the inner side of the side plate 27 through the fixing plate II 511; two ends of the power shaft II 53 are also provided with a fixed shaft sleeve II 512 which is arranged on the inner side of the side plate 27; a second motor cover 514 for dust prevention is also mounted on the side surface of the fourth motor 51.

The side transmission assembly comprises a conveying profile 62 which is arranged on the side surface of the side plate 27 through a fixing plate III 61, two ends of the conveying profile 62 are respectively and horizontally provided with a driving riding wheel 63 and a driven riding wheel 64, the driving riding wheel 63 and the driven riding wheel 64 are connected and driven through a conveying belt 65, and the driving riding wheel 63 is driven to rotate by a motor V67 which is arranged on the conveying profile 62 through a fixing plate IV 66; one end of the driven riding wheel 64 is also provided with a tensioning block 67 through a fixed plate so as to adjust the tightness of the conveyer belt 65.

The invention works as follows:

the linear section roller conveying assembly drives the driving chain wheel I22 and the chain I25 through the motor I21 and further drives the power shaft I23 and the roller I28 to realize the linear transmission function, the inclined section roller conveying assembly drives the driving chain wheel II 52 and the chain II 54 through the motor IV 51 and further drives the power shaft II 53 and the roller II 58 to realize the inclined transmission function, the side face is provided with the side face conveying assembly to correct the transmission direction of workpieces such as boards and the like on a line, one end of the tail is provided with the screw rod pressing wheel assembly, when the inductor senses the workpieces such as boards and the like to be transmitted in, the motor II 42 drives the screw rod 43 to control the upper pressing wheel 411 to lift, the motor III 45 controls the upper pressing wheel 411 to rotate, the cylinder jacking assembly is arranged below the middle section bar of the linear section roller conveying assembly and the inclined section roller conveying assembly, the lower pressing wheel 35 on the upper section bar 34 is controlled by the cylinder 33 to jack up so as to correct the direction of the boards, the deviation problem of the direction after the acceleration transmission is corrected, and the upper pressing wheel 411 can accelerate the transmission when the upper pressing wheel is transmitted, so that the occurrence of the phenomenon of the board accumulation is prevented.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to the embodiments described above will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The inclined roller conveyor is characterized by comprising a frame (10), and a straight-line section roller conveying assembly, a jacking assembly, a screw rod pinch roller assembly, an inclined section roller conveying assembly and a side conveying assembly which are arranged on the frame (10), wherein the jacking assembly is positioned between the straight-line section roller conveying assembly and the inclined section roller conveying assembly;

the straight-line roller conveying assembly comprises a motor I (21) arranged on the frame (10) through a motor fixing seat I (213), and side plates (27) symmetrically arranged on the frame (10) along the conveying direction; the inner sides of the side plates (27) at two sides are respectively provided with a first power shaft (23) through a first bearing seat (210), the output end of the first motor (21) is provided with a first driving sprocket (22), the first power shaft (23) is provided with a first driven sprocket (24) corresponding to the first driving sprocket (22), and the first driving sprocket (22) and the first driven sprocket (24) are driven through a meshed first chain (25); a roller I (28) which is perpendicular to the side plates (27) is arranged between the side plates (27) at both sides in parallel through roller supports I (29) which are respectively arranged at the inner sides of the side plates (27) at both sides, and the power shaft I (23) is connected with the roller I (28) through a synchronous belt I (26); the first bearing seat (210) is arranged on the inner side of the side plate (27) through a first fixing plate (211);

the jacking assembly comprises a lower section bar (32) used for connecting the bottoms of the side plates (27) on two sides, a fixed plate (31) arranged on the lower section bar (32), an air cylinder (33) arranged on the fixed plate (31), an upper section bar (34) which is jacked by the air cylinder (33) and is arranged in parallel with the lower section bar (32) up and down, and a lower pressing wheel (35) arranged on the upper section bar (34) in parallel;

the screw rod pinch roller assembly comprises a screw rod rack (41) arranged at the side part of the rack (10), a motor II (42) arranged at the top of the screw rod rack (41), a screw rod (43) vertically driven by the motor II (42), and a connecting plate (44) vertically lifted by the screw rod (43); a motor fixing plate (48) is vertically arranged on the connecting plate (44), a motor III (45) is arranged on the side part of the motor fixing plate (48), a motor shaft (46) of the motor III (45) is connected with a first synchronizing wheel (47), two second synchronizing wheels (49) are arranged at the front end of one side of the motor fixing plate (48) through a second bearing seat (412), the first synchronizing wheel (47) is driven by a second synchronizing belt (410) together with the adjacent second synchronizing wheels (49) and the two second synchronizing wheels (49), and the two second synchronizing wheels (49) drive two upper pressing wheels (411) arranged on the other side of the motor fixing plate (48) to rotate through a rotating shaft;

the inclined section roller conveying assembly comprises a motor IV (51) which is arranged on the frame (10) through a motor fixing seat II (513), power shafts II (53) which are symmetrically arranged on the inner sides of the side plates (27) on the two sides through bearing seats III (510), the output end of the motor IV (51) is connected with a driving chain wheel II (52), a driven chain wheel II (54) corresponding to the driving chain wheel II (52) is arranged on the power shaft II (53), and the driving chain wheel II (52) and the driven chain wheel II (54) are driven through meshed chains II (55); a second roller (58) obliquely arranged with the side plates (27) is arranged between the side plates (27) at both sides in parallel through a second roller support (59) respectively arranged at the inner sides of the side plates (27) at both sides, and the second power shaft (53) is connected with the second roller (58) through a third synchronous belt (56); the bearing seat III (510) is arranged on the inner side of the side plate (27) through a fixing plate II (511);

the side transmission assembly comprises a conveying profile (62) which is arranged on one side of the side plate (27) through a fixing plate III (61), driving riding wheels (63) and driven riding wheels (64) are respectively and horizontally arranged at two ends of the conveying profile (62), the driving riding wheels (63) and the driven riding wheels (64) are connected and driven through a conveying belt (65), and the driving riding wheels (63) are driven to rotate by a motor V (67) which is arranged on the conveying profile (62) through a fixing plate IV (66).

2. A tilting roller conveyor according to claim 1, characterized in that the two ends of the first power shaft (23) are further provided with a first fixed sleeve (212) mounted inside the side plate (27); the side face of the first motor (21) is also provided with a first motor cover (214) for dust prevention.

3. The inclined roller conveyor according to claim 1, characterized in that the two ends of the power shaft two (53) are also provided with a fixed shaft sleeve two (512) mounted inside the side plate (27); and a second motor cover (514) for dust prevention is also arranged on the side surface of the fourth motor (51).

4. A tilting roller conveyor according to claim 1, characterized in that one end of the driven idler (64) is also provided with a tensioning block (67) via a fixed plate to adjust the tightness of the conveyor belt (65).

5. A tilting roller conveyor according to claim 1, characterized in that an electric cabinet (70) and solenoid valves (80) are arranged under one side of the side plates (27); a foot stand (90) is arranged at the bottom of the frame (10).